https://phys.org/news/2018-01-metalens-focuses-rainbow-possibilities-virtual.html
Sorry, misspelled spectrum.
Right now they are small and working to get one up to a centimeter in diameter.
I would love to see these things a METER in diameter! Or 2! That won't be for a few years but it is an exciting development nonetheless.
Originally posted by @sonhouseIf that research proves to be sound, that WILL revolutionize optics!
https://phys.org/news/2018-01-metalens-focuses-rainbow-possibilities-virtual.html
Sorry, misspelled spectrum.
Right now they are small and working to get one up to a centimeter in diameter.
I would love to see these things a METER in diameter! Or 2! That won't be for a few years but it is an exciting development nonetheless.
I have (informally and just for personal interest) studied chromatic aberration and know that it is normally a huge obstacle in designing cheap flat thin non-bulky lenses.
I don't understand how "paired nanofins control the refractive index on the metasurface" can work specifically to make all the wavelengths travel at the same speed thus bend (refract) by the same amount as required but (obviously) I take their word for it that it works.
02 Jan 18
Originally posted by @humyMy question would be, say you pump 100 milliwatts of light with visable spectrum, and you have a power meter at focus, do you still have 100 milliwatts? My guess is not all the light gets focused because it looks like various sized 'nanofins' would be used to have a multispectrum focus so it looks like those nanofins cannot do it to every photon that passes through the lens. That's what it looks like to me, and of course I can be 100% wrong.
If that research proves to be sound, that WILL revolutionize optics!
I have (informally and just for personal interest) studied chromatic aberration and know that it is normally a huge obstacle in designing cheap flat thin non-bulky lenses.
I don't understand how "paired nanofins control the refractive index on the metasurface" can work specifically to make ...[text shortened]... (refract) by the same amount as required but (obviously) I take their word for it that it works.